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余方可

2021年03月08日 16:45  点击:[]

基本情况

余方可,博士,副教授,硕士生导师,英国皇家化学会(RSC)会员。毕业于南开大学环境科学与工程学院,获得工学博士学位,陕西科技大学首批“青年拔尖”人才,陕西省首届秦岭生态环境保护“青年学者”。主要从事环境友好,水体净化,人体健康功能材料的制备及开发,电化学高级氧化处理有机废水及电池回收的技术集成和开发、电极材料和电化学反应器的开发与应用等相关研究。Chemical Engineering Journal、Environmental Pollution、Science of Total Environment、Electrochimica Acta、Separation and Purification Technology、 Journal of Hydrogen Energy等多个权威期刊审稿人。

主要成果

近年来,先后主持国家自然科学基金、中国博士后科学基金、陕西省自然科学重点研究和基础研究等国家和省部级科研基金项目多项,获得“陕西省秦岭保护生态学者”称号,入选陕西科技大学“青年拔尖”人才支持项目,指导学生参与全国大学生创新创业大赛,发表SCI论文40余篇,申请国家发明专利10项,2021年入围全国博士后创新创业大赛全国总决赛。

科研方向

主要从事环境友好,水体净化,人体健康功能材料的制备及开发,电化学高级氧化处理有机持久性难降解废水及电池回收技术集成和开发、电极材料和电化学反应器的开发与应用。电/光化学催化氧化对废水中有机污染物的催化氧化过程及降解机理研究。传统污水的物化生物处理与现代高级氧化耦合技术对污水处理厂站进行设计与运行管理等。

近几年主持和主要参与科研项目

1. 国家自然科学基金,PANI@CHNs双功能阴极氧还原活性调控及其选择性降解PFOS机理研究 (22106099). 2022-2024,主持

2. 陕西省自然科学重点研发计划,铁碳内电解耦合微生物膜协同电芬顿多级电催化复合技术对污水厂尾水的深度处理及其一体化装置开发(2022SF-286),2021-2023,主持

3. 中国博士后科学基金,多孔碳电催化产H2O2的调控机制及其降解PFCs(全氟化合物)机理研究(2019205170),2019-2021,主持

4. 陕西省自然科学基础研究项目,高效电极体系的开发及其电化学技术处理工业废水的应用(2018JQ5070),2018-2019, 主持

5. 海外及港澳学者合作研究基金用于腐蚀性生物膜检测及废水处理的微生物燃料电池新技术.(21328602)

6. 甘肃省黄河流域开放性实验课题,黄河水安全治理研究. 主持

7. 企业产学研项目,电化学污水处理工艺及催化材料研究. 2021 -2023. 主持

8. 企业项目,电催化阳极氧化协同阴极还原降解持久性有机污染物集成技术开发。2020-2022. 主持

9. 企业项目,绿色高效生活污水处理技术研究及应用。2020-2024. 主持

10. 企业项目,电化学高级氧化技术电极开发及制备。2022-2023. 主持

论文著作

1. Fangke Yu*, Yiran Xiao, Ling Tao. The activation of PMS for PFOA degradation by adjustable metal stripping Fe/Co/N@BC catalysts: Degradation performance with single-line oxygen and high-valent metal oxides as the main active substances.Separation and Purification Technology 351 (2024) 127589.

2. Fangke Yu*, Xiaochun Xu , Yueping Guo. Recovery of metal ions in lithium iron phosphate powder and lithium nickel-cobalt-manganate powder by electrochemical oxidation Separation and Purification Technology 344 (2024) 127134.

3. Ling Tao, Jiepu Zhang, Fangke Yu*. A self-synthesised non-homogeneous MoS2/Fe–Co–N–BC composite catalyst as an activator for peroxomonosulfate activation for efficient degradation of perfluorooctanoic acid. New Journal of Chemistry, 2024, DOI: 10.1039/D3NJ05139K.

4. Fangke Yu*, Haoqing Li and Yueping Guo. More effective peroxymonosulfate activation for tetracycline removal by Co–FeN/@BC assisted by micro-electrolysis: performance and mechanism. Environmental Science: Water Research & Technology, 2024, DOI: 10.1039/D3EW00801K.

5. Fangke Yu* , Yueping Guo, Haoqing li , Jing Yang. Activated persulfate by the synergistic electro-activation and bimetals cathode (MBC@CF) leads to highly efficient degradation of tetracycline. Separation and Purification Technology 335 (2024) 126204

6. Fangke Yu*, Xiaochun Xu , Jing Yang. Efficient activation of peroxymonosulfate by molybdenum disulfide cocatalysis of Co and N co-doped porous carbon for degrading perfluorooctanoic acid: Synergistic effect of Co and N by molybdenum and its mechanism. Journal of Water Process Engineering 57 (2024) 104663

7. Fangke Yu*, Yueping Guo , Jing Yang. Mechanistic insights into removal of bisphenol A from activate peroxymonosulfate by Fe-C coupled biochar with the assistance of electric-field activation. Materials Today Communications 37 (2023) 107296

8. Fangke Yu*, Yanfang Zhang, Yan Zhang, Yunlu Gao, Yuwei Pan. Promotion of the degradation perfluorooctanoic acid by electro-Fenton under the bifunctional electrodes: Focusing active reaction region by Fe/N co-doped graphene modified cathode. Chemical Engineering Journal. 457 (2023) 141320

9. Fangke Yu* , Yang Yang, Yanfang Zhang, Yuwei Pan, Ying Zhang. Electrochemical fabrication of polyaniline films deposited on graphene-loaded electrodes for •OH production and perfluorooctanoic acid degradation. Chemical Engineering Journal. 450 (2022) 137914.

10. Fangke Yu* , TianYi Cao, Hongrui Ma, Jing Yang, Liming Jing. Enhancing the yield of H2O2 and bisphenol A degradation via a synergistic effect of photoelectric co-catalysis by using NPC/C3N4 electrode. International Journal of Hydrogen Energy. 47 (2022) 16873-16886.

11. Fangke Yu*, Yan Song, Yueping Guo and Jing Yang. Degradation of tetracycline by persulfate oxidation promoted by iron-modified biochar. New J. Chem., 2022, 46, 22459

12. FangkeYu*, Ling Tao, YangYang, Shuai Wang. Electrochemical catalytic mechanism of N-doped electrode for in-situ generation of OH in metal-free EAOPs to degrade organic pollutants. Separation and Purification Technology, 277, (2021), 119432

13. Ling Tao,  Hanru Ren  and  Fangke Yu* .High efficiency electro-catalytic performance of green dill biochar cathode and its application in electro-Fenton process for pollutants degradation. New Journal of Chemistry, 45, (2021), 19273

14. Fangke Yu*, Shuai Wang, Hongrui Ma. Co-catalysis of metal sulfides accelerating Fe2+/Fe3+ cycling for the removal of tetracycline in heterogeneous electro-Fenton using an novel rolled NPC/CB cathodes. Separation and Purification Technology, 275, (2021), 119200.

15. Ling Tao,Yang Yang,FangkeYu⁎,Highly efficient electro-generation of H2O2 by nitrogen porous carbon modified carbonaceous cathode during oxygen reduction reaction performance. New Journal of Chemistry, 2020, 44, 15942

16. FangkeYu⁎,Yi Wang,HongruiMa,Minghua Zhou. Hydrothermal synthesis of FeS2 as a highly efficient heterogeneous electro-Fenton catalyst to degrade diclofenac via molecular oxygen effects for Fe(II)/Fe(III) Cycle. Separation and Purification Technology, 248, (2020) 117022

17. Fangke Yu⁎ , Yang Chen , Yuwei Pan , Yang Yang , Hongrui Ma A cost-effective production of hydrogen peroxide via improved mass transfer of oxygen for electro-Fenton process using the vertical flow reactor. Separation and Purification Technology, 241 (2020) 116695

18. Fangke Yu*, Lina Wang, Hongrui Ma Yuwei Pan. Zeolitic imidazolate framework-8 modified active carbon fiber as an efficient cathode in electro-Fenton for tetracycline degradation. Separation and Purification Technology, 237, (2020), 116342

19. Fangke Yu*, Ling Tao, Tianyi Cao. High yield of hydrogen peroxide on modified graphite felt electrode with nitrogen doped porous carbon carbonized by zeolitic imidazolate framework-8 (ZIF-8) nanocrystals. Environmental Pollution. 183, (2019), 113-119

20. Fangke Yu*, Yi Wang, Hongrui Ma. Enhancing the yield of H2O2 from oxygen reduction reaction performance by hierarchically porous carbon modified active carbon fiber as an effective cathode used in electro-Fenton. Journal of Electroanalytical Chemistry, 838, (2019), 67-65.

21. Meng Zhou,Guohui Dong,Fangke Yu* . The deep oxidation of NO was realized by Sr multi-site doped g-C3N4 via photocatalytic method. Applied Catalysis B: Environmental, 256 (2019), 117825.

22. Fangke Yu*, Yang Chen, Hongrui Ma, Ultrahigh yield of hydrogen peroxide and effective diclofenac degradation on graphite felt cathode loading with CNT and carbon black: electro-generation mechanism and degradation pathway. New Journal of Chemistry, 42, (2018), 4485-4494.

23. Fangke Yu*, Yi Wang, Hongrui Ma,Enhancement of H2O2 production and AYR degradation using a synergetic effect of photo-electrocatalysis for carbon nanotube/g-C3N4 electrodes. New Journal of Chemistry, 42, (2018), 16703-16708.

24. Fangke Yu*, Yi Wang, Hongrui Ma,Enhancing the yield of hydrogen peroxide and phenol degradation via a synergistic effect of photoelectrocatalysis using a g-C3N4/ACF electrode, International Journal of Hydrogen Energy, 43, (2018), 19500-16509.

25. Fangke Yu, Minghua. Zhou, Lei. Zhou, RuDan Peng, A Novel Electro-Fenton Process with H2O2 generation in a Rotating Disk Reactor for Organic Pollutant Degradation, Environmental Science & Technology Letters 1 (2014) 320-324.

26.Fangke Yu, Minghua. Zhou, Xinmin Yu, Cost-effective electro-Fenton using modified graphite felt that dramatically enhanced on H2O2electro-generation without external aeration. Electrochimica Acta. 163 (2015) 182-189.

专利

1. 一种处理有机废水的石墨毡阴极材料的制备方法. 2015年. ( 201310698959.2)

2. 一种高效产过氧化氢处理有机废水的碳纤维电极的制备方法.2017年.( 2017071301432550)

3. 一种石墨毡负载多孔碳碳质阴极材料及制备方法和应用.2019年. ( 201910584290.1)

4. 一种多孔碳混合炭黑辊压电极材料及其制备方法和应用. 2019年. (201910683551.5)

5. 一种石墨毡/多孔碳辊压电极材料及其制备方法和在射流式反应器中的应用. 2020年.(202010053890.8)

6.  一种生物炭空气扩散电极及其制备方法和应用. 2020年. (202010022911.X)

7. 一种处理焦化发水的电催化装置. 2022. (CN 217265264 U)

8.  一种电催化高效产H2O2射流器一体化装置. 2022. (CN217418276 U)

9.  一种电催化高效产过氧化氢电极及一体化装置. 2022. (CN 217676934 U)

10. 一种光电催化高效产H2O2电极及装置. 2022.(CN 21748827 U)

11. 一种粉煤灰制备聚硅酸铝铁用合成反应. 2023 (CN 218637386 U)

12. 一种基于煤气化渣的土壤改良剂的物料混配装置. 2023. (CN218609146 U)

13. 一种新型电化学一体化撬装设备. 2023. (CN 218539380 U)

14. 一种用于煤矸石合成聚合氯化铝絮凝剂的反应釜. 2023. (CN 218609421 U)

获奖荣誉

2019年天津市自然科学奖 二等奖

2023年天津市自然科学奖 二等奖

第十一届全国环境化学大会,科技新星

联系方式

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Email:yufangke@sust.edu.cn

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